Class 12 Chemistry Chapter 01: Solutions 6: Molar Mass Determination Hard Level 18

किसी पदार्थ के (3.6,g) को (250,g) विलायक में घोलने पर क्वथनांक उन्नयन (0.156,K) है। यदि \(K_b=0.52,K,kg,mol^{-1}\) है, तो पदार्थ का मोलर द्रव्यमान क्या होगा?

Q: किसी पदार्थ के (3.6,g) को (250,g) विलायक में घोलने पर क्वथनांक उन्नयन (0.156,K) है। यदि (K b =0.52,K,kg,mol power -1 ) है, तो पदार्थ का मोलर द्रव्यमान क्या होगा? / A (3.6,g) sample of a substance dissolved in (250,g) solvent gives boiling point elevation (0.156,K). If (K b =0.52,K,kg,mol power -1 ), what is the molar mass of the substance?

Correct Answer: A. (48,g,mol power -1 ). Explanation: चरण 1: क्वथनांक उन्नयन से (M= K bw 2 1000 by T bw 1 ) होता है। चरण 2: (M= 0.52 3.6 1000 by 0.156 250 =48,g,mol power -1 )। चरण 3: ( T b ) छोटा होने पर दशमलव को बहुत ध्यान से रखें। / Step 1: From boiling point elevation, (M= K bw 2 1000 by T bw 1 ). Step 2: (M= 0.52 3.6 1000 by 0.156 250 =48,g,mol power -1 ). Step 3: When ( T b ) is small, handle decimals very carefully.

Q: Which concept should I revise for this Chemistry MCQ?

From boiling point elevation, (M= K bw 2 1000 by T bw 1 ).

Q: What exam hint can help solve this Chemistry question?

When ( T b ) is small, handle decimals very carefully. चरण 1: क्वथनांक उन्नयन से (M= K bw 2 1000 by T bw 1 ) होता है। चरण 2: (M= 0.52 3.6 1000 by 0.156 250 =48,g,mol power -1 )। चरण 3: ( T b ) छोटा होने पर दशमलव को बहुत ध्यान से रखें।

A (3.6,g) sample of a substance dissolved in (250,g) solvent gives boiling point elevation (0.156,K). If \(K_b=0.52,K,kg,mol^{-1}\), what is the molar mass of the substance?

Explanation opens after your attempt

Correct Answer

A. \(48,g,mol^{-1}\)

Step 1

Concept

From boiling point elevation, \(M=\frac{K_bw_2\times1000}{\Delta T_bw_1}\).

Step 2

Why this answer is correct

\(M=\frac{0.52\times3.6\times1000}{0.156\times250}=48,g,mol^{-1}\).

Step 3

Exam Tip

When \(\Delta T_b\) is small, handle decimals very carefully. चरण 1: क्वथनांक उन्नयन से \(M=\frac{K_bw_2\times1000}{\Delta T_bw_1}\) होता है। चरण 2: \(M=\frac{0.52\times3.6\times1000}{0.156\times250}=48,g,mol^{-1}\)। चरण 3: \(\Delta T_b\) छोटा होने पर दशमलव को बहुत ध्यान से रखें।

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Chemistry Answer, Explanation and Revision Hints

किसी पदार्थ के (3.6,g) को (250,g) विलायक में घोलने पर क्वथनांक उन्नयन (0.156,K) है। यदि \(K_b=0.52,K,kg,mol^{-1}\) है, तो पदार्थ का मोलर द्रव्यमान क्या होगा? / A (3.6,g) sample of a substance dissolved in (250,g) solvent gives boiling point elevation (0.156,K). If \(K_b=0.52,K,kg,mol^{-1}\), what is the molar mass of the substance?

Correct Answer: A. \(48,g,mol^{-1}\). Explanation: चरण 1: क्वथनांक उन्नयन से \(M=\frac{K_bw_2\times1000}{\Delta T_bw_1}\) होता है। चरण 2: \(M=\frac{0.52\times3.6\times1000}{0.156\times250}=48,g,mol^{-1}\)। चरण 3: \(\Delta T_b\) छोटा होने पर दशमलव को बहुत ध्यान से रखें। / Step 1: From boiling point elevation, \(M=\frac{K_bw_2\times1000}{\Delta T_bw_1}\). Step 2: \(M=\frac{0.52\times3.6\times1000}{0.156\times250}=48,g,mol^{-1}\). Step 3: When \(\Delta T_b\) is small, handle decimals very carefully.

Which concept should I revise for this Chemistry MCQ?

From boiling point elevation, \(M=\frac{K_bw_2\times1000}{\Delta T_bw_1}\).

What exam hint can help solve this Chemistry question?

Concept

Why this answer is correct

Exam Tip

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